JP2554743B2 - Error correction device for reproduction - Google Patents

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention is suitable for reproducing in a magnetic recording / reproducing apparatus for digital data for reproducing a magnetic tape as a recording medium using a rotary head. Error correction device.

2. Description of the Related Art In a data recorder which is a magnetic recording / reproducing apparatus for digital data, a parity for error correction is added to prevent the data from being mistaken due to tape dropout or noise during reproduction. In the data recorder, error correction is performed using the above-mentioned parity, and if the error cannot be corrected, the reproduction operation starts again. That is, so-called read retry is performed in which the tape is rewound and the data is reproduced again. Generally, the number of retries is set, and if the number of retries exceeds this number, an error occurs, that is, unreadable.

However, the error correction is the number of its parities (redundancy ratio)
Therefore, its ability is limited, and erroneous correction is always performed at a certain rate (when the number of errors is large, the error position is erroneously determined and corrected with a certain probability), erroneous detection (when the number of errors is large. , During the parity check, false detection is made by mistake). This is probabilistically very small and is often not a problem. If it is a random error, it has a probability of once every tens of years or hundreds of years. However, if the error rate locally rises due to dropout such as tape, it may occur with a considerable probability. . In a data recorder, such erroneous correction and erroneous detection are output as correct data even though the data is incorrect, which is a big problem.

In general, error correction is not sufficiently performed with only one sequence, so a plurality of (N-fold) corrections are performed with some independent sequences. For example, combine data as one unit,
Double correction is performed in the vertical and horizontal directions of this unit. As such a correction code, there is a dual Reed-Solomon code.

SUMMARY OF THE INVENTION An object of the present invention is to provide an error correction device for reproduction that realizes error correction added to a plurality of sequences by using a parity without reducing the correction capability. That is.

Means for Solving the Problems The present invention is directed to recording data to be originally reproduced on a recording medium,
The recording data is reproduced with an N-fold (N is a natural number of 2 or more) error-correction parity added in units of a predetermined data unit, and the error correction of the recording data is performed by the reproduced parity. In the error correction device for reproduction that performs the retry operation of reproducing the recorded data again and performing the error correction again when it is uncorrectable, until the retry operation reaches M times (M is a natural number),
After performing error correction up to N-i multiples (i is a natural number and N> i), it is determined by the parity of N-i + 1 multiples whether or not an error has occurred in the data after the error correction,
After the retry operation reaches the M times, N
After error correction up to double, it is judged by N-fold parity whether or not there is an error in the data after the error correction, and the retry operation reaches L times (L is a natural number, L> M). When it is determined that no error has occurred in the recorded data reproduced from the recording medium or the data after error correction, the control unit reproduces the data error from the recording medium. It is an error correction device for reproduction characterized by outputting recorded data or data after error correction.

Operation According to the present invention, the recording data of the recording medium and the error correction parity are reproduced, and the error correction is sequentially performed from the 1st to the Nth, until the retry operation reaches the predetermined number M. After the error correction up to -i times is performed, N-i +
It is determined by the single parity whether or not an error has occurred in the data after the error correction, and after the predetermined number of times M, the error correction is performed up to N times and then the error corrected data is error by the N times parity. The control means determines whether or not has occurred.

Therefore, it is possible to prevent erroneous correction or erroneous detection of data having a large error that cannot be error-corrected up to N-i-fold by N-fold parity, and prevent deterioration of the correction capability. You can

When it is determined that no error has occurred in the record data reproduced from the recording medium or the error-corrected data, the control means outputs the record data reproduced from the recording medium or the error-corrected data, When the retry operation reaches L times, a data error is output.

The operation will be further described below with reference to FIG. 3 described later. The case where N = 3, i = 1, M = 2, and L = 4 is taken as an example. When the number of retries is M or less, that is, the first or second time (step s2), double C2 error correction is performed, and if impossible, move to step s6, and if possible, step
The process proceeds to s4 (step s3), and in step s4, it is determined whether or not the error-corrected data has an error due to the triple C3 parity.

When the number of retries is the third time, triple error correction is performed through steps s2 and s8, and it is determined in step s4 whether an error has occurred in the error-corrected data due to the triple parity.

When the number of retries reaches the fourth, step s
2. Move from s8 to s9 and output a data error without performing error correction.

FIG. 1 is an overall block diagram of an embodiment of the present invention. On the magnetic tape 1, which is a recording medium, the recording data to be originally reproduced and a unit of predetermined data for this recording data, for example, one frame unit, N-fold (N
It may be called a sequence, but N is a plural number) and the error correction parity added thereto is recorded. The magnetic tape 1 is run and reproduced along the outer peripheral surface of the rotary drum 13, and is run and driven by the pinch roller 14 and the capstan 15. The recording data and the error correction parity read from the rotary drum 13 are demodulated through the preamplifier circuit 2 which is a head amplifier, the equalization circuit 3, and the demodulation circuit 4, and stored in the buffer memory 5. To be done. The running of the magnetic tape 1 is performed through the second controller 7 that controls the mechanical structure according to the control signal from the first controller 6.

The error correction circuit 8 performs error detection and correction on the recorded data and the error correction parity stored in the memory 5. In this embodiment, as shown in FIG. 2, in the information of the stored contents, a plurality of bits form one piece of data, and the number of pieces of data is a in the vertical direction and b in the horizontal direction, which constitutes one unit, and in each direction. It is assumed that each of the sequences C1, C2, and C3 includes three parities.

The error correction circuit 8 performs an error correction operation in the order of each series C1, C2, C3 based on the contents stored in the memory 5. The error correction circuit 8 is generally controlled by a program, and by switching the address of the memory 5,
The error operation of each series C1, C2, C3 is switched. Here, the result is output to the error flag register 9. The first controller 6 responds to the contents of the register 9 to retry,
That is, it is determined whether or not the operation of rewinding the magnetic tape 1 and reproducing it again and storing it in the buffer memory 5 is performed. When retrying, a control signal is given to the second controller 7, the magnetic tape 1 is reversely run as described above, the recorded contents of the same unit are reproduced again, and the memory 5
Take in. When the error correction is normally achieved, that is, when it is OK, the correct recording data is output to the outside through the interface 10. The determination of the retry is made by executing the program stored in the second controller 7.

The operation of this second controller 7 is shown in FIG. The upper limit of the number of retries is L times, and the first M times (L> M) are determined by the error flag of the series C2 of the error flag register 9. That is, the process proceeds from step s1 to step s2, it is determined whether the number of retries is M or less, and the remaining (L−M) number of retries is the sequence C3.
The error flag of is used as the determination condition. With such a configuration, the missed detection, which is erroneous correction and erroneous detection of the series C2 due to the first to Mth retries, is solved by the error correction operation of the series C3, and erroneous data output is prevented.
Even if the series C2 is erroneous, if it can be corrected by the series C3 without retrying, if the data is output, it is impossible to check the series C3 for erroneous correction and omission of detection. In this embodiment, such a problem is solved.

Furthermore, since the remaining (LM) retries correct up to the series C3, the correction capability of the entire apparatus can be exhibited. Although there is a possibility of erroneous correction of the series C3 and omission of performance in (LM) times, error correction is performed up to the series C3 only in the last portion (LM) of the total number of retries L. The probability that such a possibility will occur is sufficiently low.

From step s1 to step s2 in FIG. 3, it is determined whether or not the number of retries is less than or equal to a predetermined value M, and if so, it is determined in step s3 whether or not the error correction of the sequence C2 is impossible, If not, the process proceeds to step s4, and it is determined whether the error correction of the series C3 is impossible. If not, the process proceeds to step s5, and the recording data is output from the buffer memory 5 via the interface 10.

When it is determined in step s3 that the error correction of the sequence C2 is impossible, the number of retries is incremented by 1 in step s6, and then the retry is executed in step s7.

When the number of retries exceeds M in step s2, the process proceeds to step s8, and it is determined whether or not the number of retries is the upper limit value L, and if not, the process proceeds to step s4 and performs error correction of the sequence C3 to correct. Determine if it was impossible.

When it is determined that the number of retries reaches the value L in step s8, the data cannot be read and a data error is output in step s9.

The present invention can also be implemented in a configuration in which another recording medium is reproduced instead of the magnetic tape.

EFFECTS OF THE INVENTION As described above, according to the present invention, it is possible to perform the error correction for reproduction by using the error correction parity added N times without deteriorating the correction capability. The device is realized.

Particularly, according to the present invention, it is possible to prevent erroneous correction or erroneous detection of data having a large error that cannot be error-corrected up to N-i-fold by N-fold parity, and its correction capability. Can be prevented from deteriorating.

Therefore, according to the present invention, it is possible to extract more accurate data even if it takes time during reproduction, and it is possible to reduce the probability of erroneous correction and erroneous detection by processing multiplexed error correction parity. become.

[Brief description of drawings]

FIG. 1 is an overall system diagram of an embodiment of the present invention, and FIG. 2 is a diagram for explaining error correction parity of the magnetic tape 1.
FIG. 3 is a flow chart for explaining the operation of the second controller 7. 1 ... Magnetic tape, 2 ... Preamplification circuit, 3 ... Equalization circuit, 4 ... Demodulation circuit, 5 ... Buffer memory, 6 ... First controller, 7 ... Second controller, 8 ... Error correction circuit, 9 ... Error flag register, 10 ... Interface, 13 ... Rotating drum

Claims (1)

(57) [Claims] 1. Recorded data to be originally reproduced on a recording medium,
The recording data is reproduced with an N-fold (N is a natural number of 2 or more) error-correction parity added in units of a predetermined data unit, and the error correction of the recording data is performed by the reproduced parity. If the error cannot be corrected, in the error correction device for reproduction that performs the retry operation of reproducing the recording data again and performing the error correction again, the retry operation is performed N times (M is a natural number).
-I (where i is a natural number and N> i) error correction is performed, then it is determined whether or not an error has occurred in the data after the error correction by the parity of N-i + 1 layers, and the retry operation is performed. After reaching M times, the error correction is performed up to N times, and then it is determined whether or not an error has occurred in the data after the error correction by N times parity, and the retry operation is performed L times (L is Is a natural number,
L> M), a control means for outputting a data error is provided, and the control means determines that no error has occurred in the recorded data reproduced from the recording medium or the data after error correction, An error correction device for reproduction, which outputs recorded data reproduced from the recording medium or data after error correction.